AU1334299A - Toothbrush - Google Patents

Toothbrush Download PDF

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Publication number
AU1334299A
AU1334299A AU13342/99A AU1334299A AU1334299A AU 1334299 A AU1334299 A AU 1334299A AU 13342/99 A AU13342/99 A AU 13342/99A AU 1334299 A AU1334299 A AU 1334299A AU 1334299 A AU1334299 A AU 1334299A
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AU
Australia
Prior art keywords
parts
toothbrush
hinge
handle
torsion
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
AU13342/99A
Other versions
AU746587B2 (en
Inventor
Hans Halm
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
GlaxoSmithKline GmbH and Co KG
Original Assignee
Smithlkine Beecham & Co K GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from GBGB9720504.1A external-priority patent/GB9720504D0/en
Priority claimed from GBGB9802247.8A external-priority patent/GB9802247D0/en
Application filed by Smithlkine Beecham & Co K GmbH filed Critical Smithlkine Beecham & Co K GmbH
Publication of AU1334299A publication Critical patent/AU1334299A/en
Application granted granted Critical
Publication of AU746587B2 publication Critical patent/AU746587B2/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A46BRUSHWARE
    • A46BBRUSHES
    • A46B5/00Brush bodies; Handles integral with brushware
    • AHUMAN NECESSITIES
    • A46BRUSHWARE
    • A46BBRUSHES
    • A46B5/00Brush bodies; Handles integral with brushware
    • A46B5/002Brush bodies; Handles integral with brushware having articulations, joints or flexible portions
    • A46B5/0054Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body
    • A46B5/0062Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body being flexible or resilient during use
    • A46B5/007Inserts made of different material, e.g. springs, plates
    • AHUMAN NECESSITIES
    • A46BRUSHWARE
    • A46BBRUSHES
    • A46B5/00Brush bodies; Handles integral with brushware
    • A46B5/002Brush bodies; Handles integral with brushware having articulations, joints or flexible portions
    • A46B5/0054Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body
    • A46B5/0062Brush bodies; Handles integral with brushware having articulations, joints or flexible portions designed to allow relative positioning of the head to body being flexible or resilient during use

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  • Brushes (AREA)
  • Massaging Devices (AREA)

Abstract

A toothbrush having a hinge located between its head and its handle, provided by first and second hinge parts extending respectively from the head end of the toothbrush toward the handle end, and from the handle end toward the head end, in a longitudinally overlapping side by side relationship, the overlapping parts being able to rotate relative to each other through a restricted angle about an axis generally perpendicular to the longitudinal axis, the two parts being linked by a torsion element between them.

Description

WO 99/16332 PCT/IEP98/06041 Toothbrush This invention relates to toothbrushes, particularly toothbrushes for use by hand action and having a flexibility-modifying feature in their handle. Toothbrushes having flexibility-modifying features in their handle are 5 known, for example US 5 054 154 discloses the possibility of a toothbrush having a hinge between its grip handle and its neck, i.e. that part of the toothbrush between the handle and the head. Generally however, the flexibility modifying features of known toothbrushes have been unable to focus the flexibility of the toothbrush at a precise point in the toothbrush structure, so that as a consequence the flexible 10 bending of the toothbrush occurs over a vaguely defined zone. Also precise "tuning" of the flexibility of the toothbrush can be difficult with known constructions. An object of this invention is to overcome the above-mentioned problems of known toothbrushes and to provide a toothbrush in which flexibility can be focused 15 at a precisely defined location and can be easily tuned independently of selection of particular construction materials for the toothbrush. According to this invention a toothbrush has a head and a grip handle, with a neck in between the head and grip handle, all disposed along a longitudinal toothbrush axis, bristles projecting from the head in a direction generally 20 perpendicular to the toothbrush axis, having a hinge located between its head and its handle, the hinge being provided by a first hinge part extending from the head end of the toothbrush toward the handle end, and a second hinge part extending from the handle end toward the head end, the said first and second hinge parts being arranged in a longitudinally overlapping side by side relationship on opposite sides 25 of a plane parallel to the longitudinal axis and to the bristle direction, the overlapping parts being able to rotate relative to each other through a restricted angle about an axis generally perpendicular to the longitudinal axis and to the bristle direction, the two parts being linked by a torsion element between them. The hinge may be located at any part of the toothbrush between the head and 30 the handle but is preferably located either between the handle and the neck or between the neck and the head. In this description the head is defined as that part of the toothbrush which bears the bristles, the handle is defined as that part of the - 1 - WO 99/16332 PCT/EP98/06041 toothbrush which is held by the hand during use, and the neck is defined as that part of the toothbrush between the head and handle. Often a toothbrush narrows over the neck region between the handle and head. The direction of the said relative rotation is suitably from an initial 5 unstressed rest position to a position where the toothbrush head is displaced from its rest position in the bristle tip - toothbrush head direction, and the torsion element is suitably an element which is capable of providing torsional force to return the head in the opposite direction toward, ideally into, the rest position. The said displacement is caused by pressure applied to the tips of the bristles by the action of 10 the user brushing his/her teeth and consequently applying pressure thereto. In one embodiment the toothbrush has a single first hinge part extending from the head end of the toothbrush toward the handle end, and a single second hinge part extending from the handle end toward the head end, the first and second hinge parts being respectively on either side of a plane parallel to and which 15 includes the longitudinal axis. In another embodiment the toothbrush has at least two respectively first or second hinge parts extending respectively either from the head end of the toothbrush toward the handle end, or from the handle end of the toothbrush toward the head end, and respectively either a second hinge part extending from the handle end 20 toward the head end and between two of the said at least two first hinge parts, or a first hinge part extending from the head end toward the handle end between two of the said at least two second hinge parts. The toothbrush of the invention may be provided as a separate head end and handle end. In one embodiment these may be connected only by the torsion 25 element. Alternatively the toothbrush of the invention may have an integral head end and handle end, with at least part of the torsional element formed integrally between and linking them. For example a separate head end and handle end may be constructed having respective connecting parts which co-operate together to retain the head end and 30 handle end together. For example such connecting parts may co-operate by a snap fit co-operation, i.e. where one or both of the connecting parts are resilient and the action of bringing the connection parts together forces a ramp surface on one part -2- WO 99/16332 PCT/EP98/06041 over and beyond a ramp surface on the other part, so that to disconnect the connecting parts again requires resilience to be overcome. If the head end and handle end are made of resilient plastics materials the resilience of such plastics materials can be used to provide such a resilient snap-fit connection. 5 There may be an axle defining the axis of relative rotation. This axle may pass through a bearing hole, or fit into a bearing socket, respectively through or in at least the first or second hinge part. For example the bearing hole may be in the form of an axle hole passing completely through the respective first and/or second part. For example the bearing socket may be in the form of a concavity, not passing 10 all the way through the respective first or second part, and in which sits the stub end of the axle. Such an axle may be separate to or integral with the first or second hinge part, and the said relative rotation through a restricted angle may be about this axis. Alternately the parts may be linked by a torsion element, which may be integral with the first and/or second hinge parts. 15 When the toothbrush is of the above described separate head end and handle end construction the head end and handle end may be made of different constructional materials or differently coloured materials to for example visually emphasise its construction. The torsion element is an element that applies torsion against and to restrict 20 the relative rotation of the parts, so that the two parts can only rotate through a restricted angle relative to each other, and this rotation generates a resilient torsional effect tending to return the toothbrush toward the original rest configuration of the first and second parts. The torsion element thereby imparts flexibility into the handle of the toothbrush, helping to reduce the possibility of 25 excessive toothbrushing pressure. One type of torsion element comprises a torsion element made of resilient material, for example made of the plastics material of which the head end and handle end of the toothbrush are made, connected to the head end and handle end, e.g. integrally connected, and located between them. Such a torsion element may 30 comprise a laterally extending, i.e. perpendicular to the direction of the toothbrush longitudinal axis, torsion bar. This torsion bar may be of any suitable cross section, e.g. of non-circular cross section about the axis of relative rotation of the head end -3 - WO 99/16332 PCT/EP98/06041 and handle end, made of a resilient material, which may be integrally made of the plastics material of the toothbrush head end or handle end. Such a torsion bar may extend completely or partially across the toothbrush width between the said first and second hinge parts. Such a torsion bar may link, e.g. integrally link, the first and 5 second hinge parts. When one of respectively the said head or handle ends is provided with such a torsion bar the other end may be provided with an axle socket into and preferably through which the torsion bar extends, the axle socket being of cross section similar to the torsion bar. Suitably such a torsion bar and axle socket may also comprise the connecting 10 parts referred to above, for example the torsion bar may snap-fit into the axle socket. Alternatively the torsion bar may integrally link the first and second parts as mentioned above. Another type of torsion element comprises an elastomeric material, bonded to the head end and/or handle end, e.g. to one or both of the said first and second 15 hinge parts, and located between them. Methods of binding elastomeric and plastic materials in toothbrushes are well known in the art of toothbrush manufacture. For example the plastic and elastomeric parts may be fused together, e.g. as disclosed in WO 98/27847. Such an elastomeric material may prevent unlimited free rotation of the parts relative to each other and may cause the parts to rotate relatively only 20 through the said restricted angle. Such an elastomeric material may be in the form of an infilling between the head and handle end, e.g. between the first and second hinge parts. Such an infilling may be in the form of a layer, e.g. sandwiched laterally between the said overlapping parts. In this construction the natural elasticity of the elastomeric material may serve to generate the required torsional 25 force when the first and second hinge parts rotate relative to each other through their restricted angle. Additionally or alternately the elastomeric material may be in the form of a torsion bar extending between the head end and handle end, e.g. between the first and second hinge parts, and may be aligned with the axis about which the said 30 relative rotation through a restricted angle takes place. Such a torsion bar twists as the said parts rotate relative to each other, and a torsion force is thereby generated. -4- WO 99/16332 PCT/EP98/06041 Such an elastomeric torsion bar may be bonded to the plastic material of the said first and second parts. Such an infilling may comprise a composite structure of elastomer and the plastic material of the toothbrush. In such a structure the plastic material may be in 5 the form of structures extending within the infilling from the surface of the head end and handle end, e.g. the first and second hinge parts, which resist the said relative rotation, so as to make the infilling less flexible than it would be without such structures. For example such a composite structure may comprise a mass of elastomeric material, and embedded within this mass there may be plastic material 10 parts linked with, e.g. integrally made with, the first and/or second parts such that when the first and second parts move relative to each other e.g. through the restricted angle the plastic material parts attempt to move within the elastomer mass and thereby experience a torsional force resulting from the natural elasticity of the elastomer material mass. 15 Such a construction can allow flexing of the toothbrush preferentially in the plane that includes the longitudinal axis and the bristle direction, and can also provide damping of the flexibility. In this way flexibility in other directions such as widthwise can be limited. The elastomeric material in this construction can consequently function as a fully floating bearing. 20 Another type of torsion element comprises a thin link of a resilient material, preferably integral with the plastic material of the first and second hinge parts and made of the plastic material of the toothbrush, between the head end and handle end, e.g. between the first and second hinge parts such that the relative rotation of the said parts as described above about the axis applies a twisting force to the link, 25 which thereby can, if it is of suitable dimensions, generate a torsion force against the said rotation. For example such a link may comprise a spiral or helical structure of the plastic material linking the head end and handle end, e.g. between and linking the first and second hinge parts. Such a spiral or helical structure may be integrally 30 made with the plastic material of the head and handle end, e.g. of the first and second hinge parts. The centre of the spiral structure or the axis of the helical structure may comprise the axis about which the said relative rotation takes place. -5 - WO 99/16332 PCT/EP98/06041 There may be an axle at the centre of the spiral or helix, and the helical or spiral structure(s) may be linked to his axle. Such a spiral structure may comprise a plurality of arms radiating in a spiral curve from a centre of the spiral. Such a helical structure may comprise one or more coils of a helix surrounding a central 5 helix axis. For example if there is a single first or second hinge part located laterally between respectively two second or first hinge parts there may be two such spiral or helical structures. For example the first and/or second hinge part may have an opening therein, with the centre of the spiral structure located at or near the centre of the opening, and the outer ends of the spiral arms may be linked to the 10 inner surface of the opening. When such a spiral or helical structure is present, the said relative rotation between the first and second hinge parts may wind the spiral or helix up, and thereby create a torsion force in the opposite twist direction. In one form of such a construction a spiral structure may comprise a central axle defining the axis of 15 relative rotation of the first and second hinge parts, and linked, e.g. integrally made with the first or second hinge part, from which radiate one or preferably more spiral arms, the spiral arm(s) being linked, preferably integrally, respectively with the second or first hinge part. In one form of such a construction a helical structure may comprise a central axle defining the axis of relative rotation of the first and 20 second hinge parts, and linked, e.g. integrally made with the first or second hinge part, from which radiate one or more helical arms, the helical arm(s) being linked, preferably integrally, respectively with the second or first hinge part. The link may alternatively be made so thin that it effectively makes no practical contribution to the flexibility of the link, and can be provided primarily to 25 allow the plastic parts of the toothbrush to be moulded integrally of plastic material, e.g. the link may be formed by residual plastic material in an injection moulding channel, with the torsion element comprising an elastomeric material between the first and second hinge parts. Such a thin link can be made so thin that it can flex completely freely or even snap or shear when the toothbrush is used, e.g. for the 30 first time, so that the elastomeric material acts as the torsion element, because when such a link is used in a toothbrush of the invention, an elastomeric material as described above is also present between the parts. -6- WO 99/16332 PCT/EP98/06041 Another type of torsion member is provided by a construction in which the head end and handle end are provided with respective torsion parts, at least one of which is resilient, and such that when the head end and handle end rotate relative to each other the respective torsion parts bear upon each other, e.g. as a result of the 5 relative movement of one torsion part circumferentially relative to another, and the resilience generates a torsional force. Suitably the resilience of the said torsion parts is provided by at least one of them comprising a resilient elastomeric material. For example one or more of the said torsion parts may comprise a first part extending radially from the axis of relative rotation of the head end and handle end, 10 and the other part may comprise a second part located upon the arc followed by the first part during the relative rotation, such that the first and second parts bear upon each other during the relative rotation. One or both of such first and second parts may comprise a resilient elastomeric material. For example alternatively two of respectively the first and second torsion 15 parts may be located upon the arc followed by the first or second torsion part during the relative rotation, such that the first and second parts bear upon each other during the relative rotation. One or both of such first and second parts may comprise a resilient elastomeric material. The toothbrush of the invention may also include co-operating end-stop 20 means to encourage or cause the said parts to rotate relative to each other only through a restricted angle, e.g. structures which abut against each other at the limits of the restricted angle to thereby prevent further relative rotation. Such structures may for example project from facing surfaces of the overlapping parts, e.g. the surfaces of the first and second hinge parts, and may be respectively integral with 25 such parts. When the link between the head end and handle end, e.g. between and linking the first and second hinge parts comprises the abovementioned spiral or helical structure of the plastic material, then such a structure may also function as an end-stop means by virtue of the spiral or helix becoming wound up and unable to rotate any further in a particular rotation direction. 30 By means of the above described construction of the toothbrush of the invention the flexibility of the toothbrush may be made independent of the plastic material of the toothbrush end, and for example can be determined by the -7- WO 99/16332 PCT/EP98/06041 composition, amount or shape of the elastomeric material. Moreover the flexibility of the handle can be determined by the position and construction of the hinge, so as to focus flexibility at a precise point in the toothbrush. The invention will now be described by way of example only with reference 5 to the accompanying drawings which show: Figs. 1 and 2 respectively plan and side views of one construction of the toothbrush of this invention. Figs. 3 and 4 respectively plan end side views of another construction of the toothbrush of the invention. 10 Figs. 5 and 6 show alternative constructions of the hinge of toothbrushes of the invention in part sectioned side views. Figs. 7 to 18 show perspective part cutaway views of alternative constructions of toothbrush of this invention. Referring to Figs. 1 and 2 a toothbrush comprises a head 1, a grip handle 2, 15 and a neck 3 between the head 1 and handle 2, all being disposed along a longitudinal toothbrush axis A-A. From the head 1 project bristles 4 in a general bristle direction B-B. The toothbrush is made in the form of a separate head end 5, and a handle end 6. From the head end 5 a first hinge part 7 extends toward the handle end 6. 20 From the handle end 6 a second hinge part 8 extends toward the head end 5. The two hinge parts 7 and 8 overlap longitudinally and are side by side on opposite sides of a plane parallel to the longitudinal axis A-A and to the bristle direction B-B, being the plane of the paper in Fig. 1. The hinge parts 7 and 8 are able to rotate relative to each other through a small angle about an axis C-C. It will be seen that 25 the hinge parts 7 and 8 stop short of respectively the handle end and the head end leaving small gaps 9, 10 which provide clearance for the hinge parts 7 and 8 to rotate relative to each other. Located between the two hinge parts 7 and 8 is a torsion element 11 in the form of an elastomeric material bonded to each of the hinge parts 7, 8. The elastomeric material 11 is in the form of a layer, thin relative 30 to the width of the toothbrush, and in the shape of a disc. Being in this form the toothbrush is able to flex about the axis C-C preferentially in the plane of the bristle direction B-B, i.e. in the plane of the paper of Fig. 2. -8- WO 99/16332 PCT/EP98/06041 In a modification of the construction shown in Figs. 1 and 2, either or both of the hinge parts 7, 8 may be pierced with a hole (not shown) through which extends an axle (not shown) aligned with the axis C-C, and about which relative rotation of the hinge parts 7, 8 can occur. Such an axle may be integral with a non 5 pierced hinge part 7 or 8. Referring to Figs. 3 and 4, parts corresponding in function with those of Figs 1 and 2 are numbered correspondingly. From the handle end 6 of the toothbrush of Figs 3 and 4 extend two second parts 8. From the head end 5 of the toothbrush of Figs 3 and 4 extends one first hinge part 7, which extends between 10 the two second hinge parts 8. It will be seen that the first and second hinge parts 7 and 8 stop short of respectively the handle end and the head end leaving small gaps 9, 10 which provide clearance for the hinge parts 7 and 8 to rotate relative to each other. Between the hinge parts 7 and 8 are two torsion elements 11 in the form of an elastomeric material bonded to the hinge parts 7, 8. In Figs 3 and 4 the 15 arrangement of hinge parts 7 and 8 can be reversed such that the two first hinge parts 7 extend from the head end 5 and a single second part 8 extends from the handle end 6 between the two first hinge parts 7, again with two torsion elements 11 between them. The elastomeric material 11 is again in the form of a layer, thin relative to the width of the toothbrush, and in the shape of a disc. Being in this form 20 the toothbrush is able to flex about the axis C-C preferentially in the plane of the bristle direction B-B, i.e. in the plane of the paper of Fig. 4. In a modification of the construction shown in Figs 3 and 4, one or more of the first and/or second hinge parts 7, 8 may be pierced with a hole (not shown) through which extends an axle (not shown) aligned with the axis C-C, and about 25 which relative rotation of the hinge parts 7, 8 can occur. Such axle or axles may be integral with a non pierced part hinge 7 or 8. Referring to Figs 5 and 6, parts corresponding to the toothbrush of Figs 1-4 are numbered correspondingly. In Figs 5 and 6 the first and second hinge parts 7 and 8 are linked integrally by a thin plastic spine 12 which in Fig 5 is circular in 30 cross section and in Fig 6 is rectangular in cross section. These linking spines 12 enable the toothbrush to be moulded integrally. The spines 12 can be made so thin that they contribute little or nothing to the resilience or flexibility of the link -9- WO 99/16332 PCT/EP98/06041 between the hinge parts 7 and 8, and may also shear when the toothbrush is used. When the spines 12 shear during use, although the toothbrush is provided with the spines linking the hinge parts 7 and 8, on use the hinge parts 7 and 8 and the respective head and handle ends become separated. The spines 12 can alternatively 5 also function as torsion elements, the rectangular sectioned spine 12 of Fig 6 allowing fine control of the resilience of the toothbrush handle by adjustment of its dimensions. The spines 12 are enclosed within a further torsion element 11 in the form of an elastomeric material. The elastomeric material 11 is again in the form of a layer, thin relative to 10 the width of the toothbrush, and in the shape of a disc. Being in this form the toothbrush is able to flex about the axis C-C preferentially in the plane of the bristle direction B-B, i.e. in the plane of the paper of Figs. 5 and 6. Referring to Figs. 7 to 15, parts corresponding to the toothbrush of Figs. 1 to 6 are numbered correspondingly. 15 Fig. 7 shows a toothbrush of similar construction to that of Figs. 3 and 4, i.e. with a single first hinge part 7 extending between two second hinge parts 8. Projecting laterally from the first hinge part 7 are two opposed stub axles 13 which fit into corresponding socket bearings 14 in the two second hinge parts 8, allowing the first and second hinge parts 7 & 8 to rotate relative to each other about the axis 20 C--C. The handle end 2 and head end 3 of the toothbrush may be manufactured separately and fitted together, e.g. the first hinge part 7 snap-fitting between the two second hinge parts 8. There is an elastomeric material infilling 11 between the first and second hinge parts 7, 8 acting as a torsion element and which limits their relative rotation. 25 Fig. 8 shows a toothbrush of similar construction to that of Fig. 7, and corresponding parts are numbered correspondingly. Between the first hinge part 7 and second hinge part 8 are end stop means 15, 16, being structures integral with and projecting from the surface of the respective part 7, 8 having abutment surfaces 17 which abut to define the limits of relative rotation. There is an elastomeric 30 material infilling 11 (not shown for clarity) between the first and second hinge parts 7, 8 acting as a torsion element and which limits their relative rotation. - 10 - WO 99/16332 PCT/EP98/06041 Fig. 9 shows a toothbrush with a single first hinge part 7 extending between two second hinge parts 8. The first and second hinge parts 7, 8 are pierced with coaxial holes 19, 20, through which passes an axle 21 made of elastomeric material bonded to the plastic material of the first and second hinge parts 7, 8. On relative 5 rotation of the first and second hinge parts 7, 8 the axle 21 acts as a torsion bar. Between the first and second hinge parts 7, 8 are end stop means in the form of slots 22 in the first hinge part 7 and integral projections 23 into slots 22 from the surface of the second hinge means 8. The projections 23 have only limited movement in the slots 22, thereby allowing only limited relative rotation. 10 Figs. 10, 11 and 12 all show toothbrushes in which there is a single first hinge part 7 extending between two second hinge parts 8, with an elastomer material infilling 11 between and bonded to the first and second hinge parts 7, 8. In Fig 10 the infilling 11 is in the form of a layer sandwiched between the parts 7, 8 and in Figs. 11 and 12 an elastomeric material axle 21 is present, similar to that 21 15 of Fig. 9. In each of the three constructions shown in Figs. 10, 11 and 12, there are plastic material structures 24 extending within the infilling 11 integrally from in Fig. 10 the surface of the first hinge part 7, and in Figs. 11 and 12 from the surface of the second hinge part 8. These structures 24 are in the form of vanes, baffles or paddles which resist the said relative rotation, so as to make the infilling 20 11 less flexible than it would be without the structures 24. Figs. 13, 14 and 15 show toothbrushes of the invention in which there are integral links between the first and second hinge parts 7, 8 which comprise a spiral or helical structure of the plastic material, parts of the toothbrush corresponding to parts of the toothbrushes of Figs. 1 to 12 above being correspondingly numbered. 25 There is also an elastomer infilling 11 between the parts 7, 8. In Figs. 13, 14 and 15 a single first hinge part 7 extends between two second hinge parts 8. In Figs. 13 and 14 an axle 25 extends from the lateral surfaces of the first hinge part 7 and defines the axis of relative rotation C--C. In Fig. 13, axle 25 is integrally linked to the second hinge part 8 by number of spirally curved arms 26. In Figs. 13 and 14, 30 the second hinge part 8 has an opening therein, i.e. being formed into a ring shape, with the centre 25 of the spiral structure located at or near the centre of the opening, and the outer ends of the spiral arms 26 are linked to the inner surface of - 11 - WO 99/16332 PCT/EP98/06041 the opening. In Fig. 14, axle 25 is integrally linked to the second hinge part 8 by single spirally curved arm 27. In Fig. 15 each lateral surface of the first hinge part 7 is linked to the second hinge parts 8 by an integral helical coil 28 of the plastics material. When such spiral or helical structures 26, 27, 28 are present, the said 5 relative rotation between the first and second hinge parts 7, 8 winds the spiral or helix up, and thereby creates a torsion force in the opposite rotation direction. Referring to Fig. 16, parts corresponding to the toothbrush of Figs. 1-15 are numbered correspondingly. The toothbrush has a separate head end 5 and a handle end 6 constructed having respective connecting parts 29, 30 which co-operate 10 together to retain the head end 5 and handle end 6 together. The connection parts 29, 30 co-operate by a snap fit co-operation, i.e. both of the connecting parts 29, 30 are made of resilient plastic material and the action of bringing the connection parts 29, 30 together forces a ramp surface 31 on one part 29 over and beyond a ramp surface 32 on the other part 30, so that to disconnect the connecting parts 29, 30 15 again requires resilience to be overcome. The torsion element in the toothbrush of Fig. 16 comprises a laterally extending torsion bar 32 of non-circular cross section about the axis of relative rotation C--C of the head end 5 and handle end 6, made integrally of the plastics material of the toothbrush head end 5 and handle end 6. The torsion bar 32 extends 20 across the toothbrush width between two second hinge parts 8, the connecting part 29 comprising a first hinge part having an axle socket 33 through which the torsion bar 32 extends when the parts 29, 30 are connected together. The axle socket 33 is of cross section similar to the torsion bar 32. Referring to Fig. 17 a toothbrush is shown, in which parts corresponding to 25 the toothbrush of Figs. 1-15 are numbered correspondingly. The toothbrush has a separate head end 5 and a handle end 6 having a torsion member provided by a construction in which the head end 5 and handle end 6 are provided with respective torsion parts, and one of the said torsion parts 34 comprises radial first part 35 extending radially toward the handle 6 of the toothbrush from the axis of relative 30 rotation C--C of the head end 5 and handle end 6, and the other part 36 comprises a second part located upon the arc followed by the radial first part during the relative rotation, such that the first 35 and second part 36 bear upon each other during the - 12 - WO 99/16332 PCT/EP98/06041 relative rotation. The second parts 36 are made of a resilient elastomeric material. The resilient force so generated applies a torsional effect upon the first part 35. The toothbrush of Fig. 17 has a first hinge part 37, which when the head end 5 and the handle end 6 are connected together fits between two second hinge parts 5 38 on the handle end. The head end 5 and handle end 6 function as connecting parts as the ramp surface 39 can snap into the socket 40. The ramp surface 39 also acts as an axle in the socket 40 about which the head end 5 and handle end 6 can rotate relative to each other. Referring to Fig. 18, parts corresponding to the toothbrush of Figs. 16 are 10 numbered correspondingly. The toothbrush has a separate head end 5 and a handle end 6 constructed having respective connecting parts 29, 30 which co-operate together to retain the head end 5 and handle end 6 together. The connection parts 29, 30 co-operate by a snap fit co-operation, i.e. both of the connecting parts 29, 30 are made of resilient plastic material and the action of bringing the connection parts 15 29, 30 together forces a ramp surface 31 on one part 29 over and beyond a ramp surface 32 on the other part 30, so that to disconnect the connecting parts 29, 30 again requires resilience to be overcome. The torsion element in the toothbrush of Fig. 18 comprises a laterally extending axle 41 of non-circular cross section about the axis of relative rotation C- 20 C of the head end 5 and handle end 6, made integrally of the plastics material of the toothbrush head end 5 and handle end 6. The axle 41 extends across the toothbrush width between two disc-shaped end flanges 42. The combination of connecting part 29, axle 41 and end flanges 42 comprises a first hinge part. The end flanges 42 are connected to second hinge parts 43 only by means of a disc of elastomer 44 bonded 25 to both the end flanges 42 and the second hinge parts 43. The elastomer 44 comprises a torsion element, so that first and second hinge parts 42, 43 can rotate about a restricted angle relative to each other. Any of the other types of torsion element discussed above with reference to the preceding figures may also be provided between the end flanges 42 and the second hinge part 43. 30 In use, the toothbrushes of Figs. 1-18 operate in a similar manner. Pressure from tooth brushing applied to the head 1 of the toothbrush whilst the handle 21 is held causes the head end 5 and handle end 6 to articulate resiliently about the hinge, - 13 - WO 99/16332 PCT/EP98/06041 such that the first hinge part 7 and second hinge part 8 rotate relative to each other against a torsional force applied by the torsion element, and thereby relieve excess brushing pressure. The direction of the relative rotation, caused by pressure applied to the tip of the bristles by the action of the user brushing his/her teeth, is from an 5 initial unstressed rest position, to a position where the toothbrush head is displaced from its rest position in the bristle tip - toothbrush head direction, that is along the line B--B downwards in the drawings of Figs. 1 to 17. The torsion elements 11, 21, 26, 27, 28, 29, 30, 35, 36, 44 are capable of providing torsional force to return the head in the opposite direction toward the rest position. The degree of resilient 10 articulation can be controlled by the dimensions of, and materials of which the toothbrushes are made, particularly the first and second hinge parts 7, 8 and the torsion elements 11, 21, 26, 27, 28, 44. - 14 -

Claims (20)

1. A toothbrush with a head and a grip handle, with a neck in between the head and grip handle, all disposed along a longitudinal toothbrush axis, bristles 5 projecting from the head in a direction generally perpendicular to the toothbrush axis, having a hinge located between its head and its handle, characterised in that the hinge is provided by a first hinge part extending from the head end of the toothbrush toward the handle end, and a second hinge part extending from the handle end toward the head end, the said first and second hinge parts being 10 arranged in a longitudinally overlapping side by side relationship on opposite sides of a plane parallel to the longitudinal axis and to the bristle direction, the overlapping parts being able to rotate relative to each other through a restricted angle about an axis generally perpendicular to the longitudinal axis, the two parts being linked by a torsion element between them. 15
2. A toothbrush according to claim 1 characterised in that the hinge is located between the handle and the neck.
3. A toothbrush according to claim 1 characterised in that the hinge is located 20 between the neck and the head.
4. A toothbrush according to any one of claims 1, 2 or 3 characterised in that the toothbrush has a single first hinge part extending from the head end of the toothbrush toward the handle end, and a single second part extending from the 25 handle end toward the head end, the two hinge parts being respectively on either side of a plane which includes the longitudinal axis.
5. A toothbrush according to any one of claims 1, 2 or 3 characterised in that the toothbrush has at least two respectively first or second hinge parts extending 30 either from the head end of the toothbrush toward the handle end, or from the handle end of the toothbrush toward the head end, and respectively either a respectively second or first hinge part extending from the handle end toward the - 15 - WO 99/16332 PCT/EP98/06041 head end, the said first or second hinge part extending between the respective second or first hinge parts .
6. A toothbrush according to any one of the preceding claims, characterised by 5 an axle defining the axis passing through a bearing hole, or fitting into a bearing socket, through or in at least the first or second hinge part, and the said relative rotation through a restricted angle is about this axis.
7. A toothbrush according to any one of the preceding claims characterised in 10 that the torsion element comprises an elastomeric material, bonded to one or both of the said hinge parts, and located between them.
8. A toothbrush according to claim 7 characterised in that the elastomeric material is in the form of a layer sandwiched laterally between the said overlapping 15 parts.
9. A toothbrush according to claim 7 characterised in that the elastomeric material is in the form of an axle or torsion bar between the first and second hinge parts. 20
10. A toothbrush according to claim 1 characterised by a separate head end and handle end which are connected only by the torsion element.
11. A toothbrush according to any one of claims 1 to 10 characterised in that 25 the torsion element comprises a thin integral link between the said parts such that the relative rotation of the said parts as described above about the axis applies a twisting force to the link.
12. A toothbrush according to claim 11 characterised in that the torsion element 30 comprises a spiral or helical structure linking the head end and handle end, and the said relative rotation between the first and second hinge parts winds the spiral or helix up, and thereby creates a torsion force in the opposite twist direction - 16 - WO 99/16332 PCT/EP98/06041
13. A toothbrush according to claim 11 characterised in that the integral link is made so thin that it can flex completely freely or even snap or shear when the toothbrush is used. 5
14. A toothbrush according to any one of the preceding claims characterised by a construction in which the head end and handle end are provided with respective torsion parts, at least one of which is resilient, and such that when the head end and handle end rotate relative to each other the respective torsion parts bear upon each 10 other as a result of the relative movement of one torsion part circumferentially relative to another, and the resilience generates a torsional force.
15. A toothbrush according to claim 14 characterised in that one or more of the said torsion parts comprises a first part extending radially from the axis of relative 15 rotation of the head end and handle end, and the other part comprises a second part located upon the arc followed by the first part during the relative rotation, such that the first and second parts bear upon each other during the relative rotation.
16. A toothbrush according to claim 14 characterised in that two of respectively 20 the first and second torsion parts are located upon the arc followed by the first or second torsion part during the relative rotation, such that the first and second parts bear upon each other during the relative rotation.
17. A toothbrush according to any one of the preceding claims characterised by 25 co-operating end-stop means to encourage or cause the said parts to rotate relative to each other through a restricted angle.
18. A toothbrush according to claim 17 characterised in that the end stop means comprise structures which abut against each other at the limits of the restricted 30 angle to thereby prevent further relative rotation. - 17 - WO 99/16332 PCT/EP98/06041
19. A toothbrush according to any one of the preceding claims characterised by a separate head end and handle end having respective connecting parts which co operate together to retain the head end and handle end together. 5
20. A toothbrush according to claim 19 characterised in that the connecting parts co-operate by a snap fit co-operation where one or both of the connecting parts are resilient and the action of bringing the connection parts together forces a ramp surface on one part over and beyond a ramp surface on the other part, so that to disconnect the connecting parts again requires resilience to be overcome. - 18 -
AU13342/99A 1997-09-26 1998-09-22 Toothbrush Ceased AU746587B2 (en)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
GB9720504 1997-09-26
GBGB9720504.1A GB9720504D0 (en) 1997-09-26 1997-09-26 Toothbrush
GBGB9802247.8A GB9802247D0 (en) 1998-02-04 1998-02-04 Toothbrush
GB9802247 1998-02-04
PCT/EP1998/006041 WO1999016332A2 (en) 1997-09-26 1998-09-22 Toothbrush

Publications (2)

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AU1334299A true AU1334299A (en) 1999-04-23
AU746587B2 AU746587B2 (en) 2002-05-02

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AU13342/99A Ceased AU746587B2 (en) 1997-09-26 1998-09-22 Toothbrush

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EP (1) EP1017296B1 (en)
JP (1) JP2001517512A (en)
KR (1) KR20010030722A (en)
CN (1) CN1131687C (en)
AT (1) ATE237248T1 (en)
AU (1) AU746587B2 (en)
BR (1) BR9813227A (en)
CA (1) CA2304582A1 (en)
DE (1) DE69813591T2 (en)
DK (1) DK1017296T3 (en)
EA (1) EA001494B1 (en)
ES (1) ES2197516T3 (en)
HK (1) HK1030341A1 (en)
HU (1) HUP0003470A3 (en)
NZ (1) NZ503591A (en)
PL (1) PL339772A1 (en)
PT (1) PT1017296E (en)
WO (1) WO1999016332A2 (en)

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Also Published As

Publication number Publication date
HUP0003470A2 (en) 2001-02-28
US6611984B1 (en) 2003-09-02
KR20010030722A (en) 2001-04-16
AU746587B2 (en) 2002-05-02
EP1017296B1 (en) 2003-04-16
DE69813591T2 (en) 2004-01-08
ES2197516T3 (en) 2004-01-01
NZ503591A (en) 2002-09-27
ATE237248T1 (en) 2003-05-15
EA200000256A1 (en) 2000-10-30
CN1131687C (en) 2003-12-24
HK1030341A1 (en) 2001-05-04
CN1280466A (en) 2001-01-17
WO1999016332A2 (en) 1999-04-08
WO1999016332A3 (en) 1999-06-03
DK1017296T3 (en) 2003-08-04
PT1017296E (en) 2003-09-30
PL339772A1 (en) 2001-01-02
HUP0003470A3 (en) 2001-03-28
DE69813591D1 (en) 2003-05-22
EP1017296A2 (en) 2000-07-12
JP2001517512A (en) 2001-10-09
EA001494B1 (en) 2001-04-23
CA2304582A1 (en) 1999-04-08
BR9813227A (en) 2000-08-29

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